The present invention concerns a spring restraining clip, specifically a spring restraining clip used when incorporating a coil spring in a device such as an automotive hydraulic shock absorber.
A coil spring is attached to a spring restraining clip in conventional hydraulic shock absorbers. The spring restraining clip is mounted on the chassis side and the wheel side via spring seats. A plurality of spring restraining members are installed in the spring restraining clip in order to increase the spring restraining force. For example, Patent Reference 1 discloses a spring restraining clip provided with four spring restraining members.
In addition, a plurality of spring seat locking pawls are mounted in the spring restraining clip in order to increase the spring seat retention force. For example, Patent Reference 2 discloses a spring restraining clip provided with five spring seat locking pawls (mounted member 42). Patent Reference 3 discloses a spring restraining clip provided with six spring seat locking pawls (positioning member 45).
Patent Reference 1: Japanese Kokai Publication 2008-24158, Gazette
Patent Reference 2: Japanese Kokai Publication 2005-155808, Gazette
Patent Reference 3: Japanese Kokai Publication 2011-63200, Gazette
The spring restraining clip of Patent Reference 1 is stiff since it has four spring restraining members. It requires great force to fit in place and is a burden on workers. An additional problem is the need to apply a certain level of depressing force on a spring in order to disengage the spring when attached to the spring restraining clip if it is too loose.
A burden is also imposed on workers when a plurality of spring seat locking pawls are used, as in the spring restraining clip of Patent References 2 and 3, since attaching a spring seat to a spring restraining clip involves manual work.
Another problem is that a spring can catch on a spring retaining pawl and the spring retaining pawl can be damaged when inserting a spring from above in a spring restraining member of a spring restraining clip in other conventional technology. Another problem is that it is difficult to insert a spring in a spring restraining member if the spring inner diameter is great when spring restraining members are disposed on a diagonal line. The spring restraining members are turned up when insertion is difficult in this manner, and they no long carry out their clip role. A final problem is that distortion develops in the spring seat locking pawls due to the spring weight, which results in their susceptibility to detachment.
An object of the present invention is to resolve the aforementioned issues associated with the known art by providing a spring restraining clip that improves operational efficiency when mounting springs and spring seats and that enhances the restraining force of the spring and the retention force of the spring seat.
The present invention provides a spring restraining clip for mounting the axial terminus of a coil spring on the chassis via a spring seat, said spring retaining clip comprising at least three spring restraining members separately placed in the circumferential direction, wherein two of the aforementioned spring restraining members are the open type of spring restraining member structured so as to clasp and hold coil springs inserted in the axial direction, and one of the aforementioned spring restraining members is a closed spring restraining member that accepts the tip of a coil spring due to rotational movement in the circumferential direction of the coil spring inserted in the aforementioned axial direction.
In one embodiment of the present invention, the aforementioned closed spring restraining member has a loop structure in which the travel path in the circumferential direction of a coil spring that is moved rotationally is covered by a bridge. It has a spring tab that extends obliquely downward in the direction of travel of the coil spring from the bridge. It is structured so that said spring tab will contact the coil spring to apply thrust force to the coil spring.
In another embodiment of the present invention, the aforementioned open type of spring restraining member has a spring retaining pawl to arrest looseness of the coil spring that had been inserted, and it has ribs to prevent the aforementioned spring retaining pawl from turning up during spring insertion.
In still another embodiment of the present invention, at least three spring locking pawls are provided on the side opposite the side provided with the aforementioned spring restraining member in order to attach the spring seat.
Still another embodiment of the present invention is structured so that the aforementioned spring locking pawls all have different structures.
A further embodiment of the present invention is structured so that the aforementioned spring locking pawls extend in the radial direction inwardly so as to compensate for deformation due to the spring load.
Yet another embodiment of the present invention is structured so that the aforementioned spring restraining members will not be disposed on a diagonal line.
These arrangements of the spring restraining clip of the present invention yield several benefits. The burden on workers is reduced, and operational efficiency is improved since there are fewer spring restraining members in the present invention in comparison with the known art. Furthermore, the spring restraining force is not reduced, since one of the spring restraining members is a closed spring restraining member.
The final structure facilitates spring insertion and renders removal more difficult by mounting a spring tab in the aforementioned closed spring restraining member that extends obliquely downward in the direction of travel of the coil spring from the bridge, and the spring can be reliably restrained independently of the size of the spring.
The spring retaining pawl can be prevented from turning up and subsequently suffering damage by mounting ribs in the aforementioned open type of spring restraining member to prevent the spring retaining pawl from being turned up during insertion of the spring.
The burden on workers is reduced, and operational efficiency is improved by reducing the number of spring locking pawls in comparison to the known art.
The structure facilitates spring insertion and renders removal more difficult by restricting the mounting sequence since the spring locking pawls all have different structures, which thus prevents reduction in the retention force of the spring seat.
Furthermore, detachment of the spring seat from the spring restraining clip can be prevented even if deformation develops in the spring locking pawls by providing a structure such that the spring locking pawls extend radially inwardly so as to compensate for deformation due to the spring load.
The spring restraining members can be prevented from turning up even if the spring inner diameter is great by providing a structure in which the spring restraining members are not disposed on a diagonal line.
The spring restraining clip pursuant to the first embodiment of the present invention shall now be explained with reference to the appended figures.
As shown in
Three spring restraining members are separately placed in the circumferential direction of the spring restraining clip 1 to restrain the terminus of the coil spring 10 in the axial direction, as shown in
The tops of the open type of spring restraining members 11, 13 are open from above in
A pair of ribs 19 is mounted in the open type of spring restraining members 11, 13 adjacent to both edges of the inner spring retaining pawl 17 in the circumferential direction (see
The upper section of the closed spring restraining member 14 has a loop structure covered by bridge 20, as shown in
A spring tab 21 that extends obliquely downward in the direction of travel of the coil spring 10 from the bridge 20 is mounted in the closed spring restraining member 14. It is structured so that the spring tab 21 would contact the coil spring 10 to apply thrust force to the coil spring 10. By so doing, movement of the coil spring 10 in the direction of movement denoted by the arrows (
In addition, stopper 23 is mounted in the spring restraining clip 1 in order to arrest the tip of coil spring 10 that had been inserted in the closed spring restraining member 14, as shown in
As shown in
As shown in
In addition, when deformation due to a spring load develops in the spring seat locking pawls 25, 26, 27, detachment of the spring seat 7 from the spring restraining clip 1 can be prevented even if deformation develops in the spring seat locking pawls, by providing a structure (see the structure shown in
It will be appreciated by persons skilled in the art that the above embodiments have been described by way of example only, and not in any limitative sense, and that various alterations and modifications are possible without departure from the scope of the invention as defined by the appended claims.
Number | Date | Country | Kind |
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2011-250678 | Nov 2011 | JP | national |
This application is a continuation of PCT Application No. PCT/JP2012/78999, filed Nov. 8, 2012, which claims priority of Japanese Patent Application No. 2011-250678, filed on Nov. 16, 2011, the disclosure of which is incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/JP2012/078999 | Nov 2012 | US |
Child | 14263355 | US |